CN116327146A - Multi-parameter health monitoring device and system - Google Patents

Abstract

The invention discloses a multi-parameter health monitoring device and a system, wherein a respiratory parameter acquisition module acquires respiratory detection parameters of a user and then transmits the respiratory detection parameters to a main controller, and the main controller acquires respiratory frequency information and respiratory intensity information of the user according to the received respiratory detection parameters; the blood oxygen pulse rate detection parameters of the user are acquired through the blood oxygen pulse rate parameter acquisition module, blood oxygen saturation information and pulse rate information are acquired according to the blood oxygen pulse rate detection parameters, the blood oxygen saturation information and the pulse rate information are transmitted to the main controller, the main controller is connected with the display module, and the display module displays one or more of respiratory rate information, respiratory intensity information, blood oxygen saturation information and pulse rate information; by monitoring the respiratory parameters and the blood oxygen pulse rate parameters of the user, the technical problems that the device in the related art only collects a single parameter as a health monitoring object, and the respiratory parameters are not monitored, and the monitoring result is not comprehensive and accurate are solved.

Description

Multi-parameter health monitoring device and system

Technical Field

The invention relates to the technical field of medical monitoring equipment, in particular to a multi-parameter health monitoring device and system.

Background

Along with the rapid development of medical auxiliary equipment technology, various medical equipment are in dispute and emerging to provide convenient medical treatment support for both doctors and patients. At present, daily monitoring and acquisition of physical health data of patients in a treatment state or for the elderly are important means for disease treatment and health condition monitoring.

In the related art, the health monitoring device monitors the health parameter of the user only based on one parameter, but if the health monitoring device needs to monitor the health state of the human body, the health monitoring device in the related art is obviously insufficient to monitor a certain human body health parameter, and the health monitoring device in the related art ignores the acquisition monitoring of the breathing parameter of the human body, and the breathing parameter is one of the important parameters of the health state of the human body, and meanwhile, the health state of the current user can be accurately judged through the monitoring of the breathing parameter, so that when the user has abnormal health state, the related personnel can be timely reminded to provide corresponding treatment.

Therefore, how to overcome the technical problems of single monitoring parameters and inaccurate monitoring results of the health monitoring device in the related art is a problem that needs to be faced by those skilled in the art.

Disclosure of Invention

The embodiment of the invention provides a multi-parameter health monitoring device, which is used for solving the technical problems that a health monitoring device in the related art only collects a single parameter as a health monitoring object, and the monitoring parameter is single, and the monitoring result is not comprehensive and accurate enough when the breathing parameter is monitored.

In a first aspect, an embodiment of the present invention provides a multivariate parameter health monitoring device comprising:

the breathing parameter acquisition module is used for acquiring breathing detection parameters of a user to be detected;

the blood oxygen pulse rate parameter acquisition module is used for acquiring blood oxygen pulse rate detection parameters of the user to be detected and acquiring blood oxygen saturation information and pulse rate information according to the blood oxygen pulse rate detection parameters;

the main controller is respectively connected with the respiratory parameter acquisition module and is used for receiving the respiratory detection parameters and acquiring respiratory frequency information and respiratory intensity information of the user to be detected according to the respiratory detection parameters; the main controller is also connected with the blood oxygen pulse rate parameter acquisition module and is used for receiving the blood oxygen saturation information and the pulse rate information;

and the display module is connected with the main controller and used for displaying one or more of the respiratory frequency information, the respiratory intensity information, the blood oxygen saturation information and the pulse rate information.

The multi-parameter health monitoring device provided by the embodiment of the invention has at least the following beneficial effects:

the multi-parameter health monitoring device is provided with a respiratory parameter acquisition module, wherein the respiratory parameter acquisition module is used for acquiring respiratory detection parameters of a user to be detected, then transmitting the respiratory detection parameters to a main controller, and the main controller acquires respiratory frequency information and respiratory intensity information of the user to be detected according to the received respiratory detection parameters; the system comprises a main controller, a display module, a blood oxygen pulse rate parameter acquisition module, a data acquisition module and a data acquisition module, wherein the main controller is also connected with the display module, and the display module is used for displaying one or more of respiratory rate information, respiratory intensity information, blood oxygen saturation information and pulse rate information of a user to be tested; the embodiment of the invention simultaneously monitors the respiratory detection parameters and the blood oxygen pulse rate detection parameters of the user to be detected, solves the technical problems that the health monitoring device in the related technology only collects a single parameter as a health monitoring object and has single monitoring parameter and incomplete and accurate monitoring result when the respiratory parameter is monitored, and provides the multi-parameter health monitoring device capable of simultaneously monitoring a plurality of health parameters and simultaneously monitoring the respiratory parameter of the user.

According to other embodiments of the present invention, the respiratory parameter acquisition module includes an electronic gyroscope;

the electronic gyroscope is attached to the body surface of the user to be tested, corresponding to the chest diaphragm, and is used for collecting acceleration information and speed information of chest cavity fluctuation, wherein the acceleration information and the speed information are the respiratory detection parameters.

According to other embodiments of the present invention, the blood oxygen pulse rate parameter acquisition module includes a blood oxygen pulse rate detection processing chip, an LED light assembly and a photoelectric receiving tube;

the blood oxygen pulse rate detection processing chip is respectively connected with the main controller, the LED light assembly and the photoelectric receiving tube, and after receiving the blood oxygen pulse rate detection signal of the main controller, the blood oxygen pulse rate detection processing chip controls the LED light assembly to work so as to generate a blood oxygen pulse rate detection light signal;

and after the photoelectric receiving tube receives the blood oxygen pulse rate detection parameters and transmits the blood oxygen pulse rate detection parameters to the blood oxygen pulse rate detection processing chip, the blood oxygen pulse rate detection processing chip acquires the blood oxygen saturation information and the pulse rate information according to the blood oxygen pulse rate detection parameters.

According to other embodiments of the invention, the multi-parameter health monitoring device further comprises an electrocardiosignal acquisition module;

the electrocardiosignal acquisition module is connected with the main controller and is used for acquiring electrocardiosignal detection parameters of a user to be detected, transmitting the electrocardiosignal information to the main controller after obtaining corresponding electrocardiosignal information according to the electrocardiosignal parameters, and transmitting the electrocardiosignal information to the display module for display by the main controller.

According to other embodiments of the present invention, a multi-parameter health monitoring device, an electrocardiograph signal acquisition module includes an electrocardiograph signal processor and at least 3 electrocardiograph electrode plates; at least 3 electrocardio electrode plates are connected with the electrocardio signal processor, at least 3 electrocardio electrode plates are used for collecting electrocardio detection parameters and transmitting the electrocardio detection parameters to the electrocardio signal processor, and the electrocardio signal processor obtains corresponding electrocardio signal information according to the electrocardio detection parameters; at least 1 grounding electrocardio electrode plate is arranged in 3 electrocardio electrode plates.

According to other embodiments of the present invention, the multi-parameter health monitoring device further comprises one or more of a heart and lung sound signal acquisition module and a body temperature acquisition module;

the heart lung sound signal acquisition module is connected with the main controller and is used for acquiring heart lung sound signals of the user to be detected and transmitting the heart lung sound signals to the main controller;

the body temperature acquisition module is connected with the main controller and is used for acquiring body temperature information of the user to be detected and transmitting the body temperature information to the main controller.

According to other embodiments of the present invention, the multi-parameter health monitoring apparatus further comprises a data storage module;

the storage module is connected with the main controller and is used for receiving and storing data information sent by the main controller.

According to other embodiments of the present invention, the multi-parameter health monitoring device further comprises a data transmission module;

the data transmission module is connected with the main controller and is used for transmitting the data information sent by the main controller to external equipment.

According to other embodiments of the invention, the multi-parameter health monitoring device further comprises a posture parameter acquisition module;

the gesture parameter acquisition module is connected with the main controller and is used for acquiring the motion gesture parameters of the user to be detected and transmitting the motion gesture parameters to the main controller, and the main controller acquires the motion state of the user to be detected according to the received motion gesture parameters.

In a second aspect, one embodiment of the present invention provides a health monitoring system comprising: the system comprises a background monitoring terminal and the multi-element parameter health monitoring device;

the background monitoring terminal is connected with the multi-element parameter health monitoring device and is used for receiving health monitoring data information sent by the multi-element health parameters and monitoring and storing the health monitoring data information.

Drawings

FIG. 1 is a schematic block diagram of an embodiment of a multi-parameter health monitoring apparatus according to the present invention;

FIG. 2 is a schematic diagram of a module for collecting parameters of blood oxygen pulse rate according to an embodiment of the present invention;

FIG. 3 is a schematic block diagram illustrating another embodiment of a multi-parameter health monitoring apparatus according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of an embodiment of an electrocardiograph signal acquisition module according to the present invention;

FIG. 5 is a schematic block diagram of a multi-parameter health monitoring apparatus according to another embodiment of the present invention;

FIG. 6 is a schematic diagram showing a three-dimensional structure of a housing of an embodiment of a multi-parameter health monitoring device according to the present invention;

FIG. 7 is a schematic view of a bottom surface of a device housing according to an embodiment of the present invention;

fig. 8 is a schematic block diagram of a health monitoring system according to an embodiment of the present invention.

Detailed Description

The conception and technical effects of the present invention will be clearly and completely described in conjunction with the following examples to fully understand the objects, features and effects of the present invention. It is apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments, and that other embodiments obtained by those skilled in the art without inventive effort are within the scope of the present invention based on the embodiments of the present invention.

In the description of the embodiments of the present invention, if "several" is referred to, it means more than one, if "multiple" is referred to, it is understood that the number is not included if "greater than", "less than", "exceeding", and it is understood that the number is included if "above", "below", "within" is referred to. If reference is made to "first", "second" it is to be understood as being used for distinguishing technical features and not as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

Referring to fig. 1, an embodiment of the present invention provides a multi-parameter health monitoring device, which includes a respiratory parameter acquisition module, a blood oxygen pulse rate parameter acquisition module, a main controller, and a display module; the main controller is respectively connected with the respiratory parameter acquisition module, the blood oxygen pulse rate parameter acquisition module and the display module. In this embodiment, when the user to be tested uses the multi-parameter health monitoring device, the respiratory parameter acquisition module is used for acquiring respiratory detection parameters of the user to be tested, and transmitting the acquired respiratory detection parameters to the main controller, and the main controller acquires corresponding respiratory frequency information and respiratory intensity information according to the received respiratory detection parameters. Meanwhile, the blood oxygen pulse rate parameter acquisition module acquires blood oxygen pulse rate detection parameters of the user to be detected, and transmits the blood oxygen saturation information and pulse rate information to the main controller after acquiring the blood oxygen saturation information and pulse rate signals according to the blood oxygen pulse rate detection parameters. After the main controller is connected with the display, the respiratory rate information and the respiratory intensity information acquired by the main controller and one or more of the received blood oxygen saturation information and the received pulse rate information can be displayed on the display module according to preset requirements, so that a user can conveniently observe the condition of the currently monitored physical health parameters directly. The multi-parameter health monitoring device provided by the embodiment of the invention can be used for simultaneously monitoring the respiratory detection parameter and the blood oxygen pulse rate detection parameter of the user to be detected, so that the technical problems that the health monitoring device only collects a single parameter as a health monitoring object in the related art, the monitoring parameter is single, and the monitoring result is not comprehensive and accurate enough are solved.

In some embodiments, in order to obtain the respiration detection parameters of the user to be tested, the respiration detection parameters are transmitted to the main controller for processing to obtain the respiration frequency and the respiration intensity. In this embodiment, the respiratory parameter acquisition module includes an electronic gyroscope, and a data output end of the electronic gyroscope is connected with the main controller. When the user to be tested breathes, the electronic gyroscope is attached to the body surface (namely the junction area of the chest and the abdomen) corresponding to the chest diaphragm of the user to be tested, and when the user to be tested breathes, the electronic gyroscope collects three-dimensional vector information of the chest diaphragm of the user to be tested, the three-dimensional vector information comprises corresponding acceleration information and speed information, and at the moment, the acceleration information and the speed information are the breathing detection parameters. After three-dimensional vector information (acceleration information and speed information) acquired by the electronic gyroscope is transmitted to the main controller, the main controller obtains the change rate of the chest volume of the user to be detected according to the acceleration information and the speed information, and then the respiratory frequency information and the respiratory intensity information corresponding to the user to be detected can be obtained according to the change rate of the chest volume, so that the respiratory frequency information and the respiratory intensity information of the user to be detected are monitored. For example, in some scenes, because the life safety is endangered due to the fact that the physical condition (including the heart and other organ factors) of the user to be tested has a rapid respiratory rate or an excessively strong respiratory intensity, after the acceleration information and the speed information of the chest cavity fluctuation of the user to be tested are obtained through the electronic gyroscope, the information is further transmitted to the main controller to obtain the respiratory rate information and the respiratory intensity information, the respiratory rate information and the respiratory intensity information can be displayed through the display module for the user to be tested or other people to observe, and when the obtained respiratory rate information and respiratory intensity information are not in a preset threshold range or are abnormally changed in a short time or are in a critical value, the user to be tested or other related preset people can be informed through the multi-parameter health monitoring device to output alarm information. Other relevant preset personnel may be the holder of the terminal of the electronic device connected to the multi-parameter health monitoring device, such as doctors, family members, etc.

Referring to fig. 2, in some embodiments, the blood oxygen pulse rate parameter acquisition module includes a blood oxygen pulse rate detection processing chip, an LED light assembly, and a photoelectric receiving tube; the blood oxygen pulse rate detection processing chip is respectively connected with the main controller, the LED light assembly and the photodiode. In this embodiment, when a user to be tested uses the multi-parameter health monitoring device to perform a test, the LED light assembly is attached to the detection site, and after the blood oxygen pulse rate detection processing chip receives the blood oxygen pulse rate detection signal of the main controller, the LED light assembly is controlled to work according to the blood oxygen pulse rate detection signal to emit a detection light signal, the detection light signal is transmitted into the skin of the detection site, and the reflected signal is received by the photodiode after encountering muscle tissue, at this time, the signal received by the photodiode includes the blood oxygen pulse rate detection parameter. Specifically, the LED light assembly comprises an infrared LED, a red LED and a green LED; when detecting blood oxygen saturation information, the blood oxygen pulse rate detection processing chip controls the infrared LED and the red LED to alternately emit light, when red light and infrared light respectively pass through blood vessels and meet muscle tissues, partial signals are respectively reflected to the photodiodes, signals received by the photodiodes, namely blood oxygen detection parameters, are transmitted to the blood oxygen pulse rate detection processing chip, and then the blood oxygen protection degree information of the current personnel to be detected is obtained and transmitted to the main controller. When detecting pulse rate information, the blood oxygen pulse rate detection processing chip controls the green light LED to emit light, the green light LED emits green light, after encountering muscle tissue through blood vessels, part of light signals are reflected to the photodiode, signals received by the photodiode are pulse rate detection parameters, the pulse rate detection parameters are transmitted to the blood oxygen pulse rate detection processing chip, and then pulse rate information of a current person to be detected is obtained and transmitted to the main controller. After receiving the blood oxygen saturation information and the pulse rate information, the main controller displays the blood oxygen saturation information and the pulse rate information through the display module, and when the acquired blood oxygen saturation information and pulse rate information are not in a preset threshold range or abnormally changed in a short time or are at a critical value, a warning information user can be output through the multi-parameter health monitoring device to inform a user to be tested or other related preset personnel. Other relevant preset personnel may be the holder of the terminal of the electronic device connected to the multi-parameter health monitoring device, such as doctors, family members, etc.

Referring to fig. 3, in some embodiments, the multi-parameter health monitoring device further comprises an electrocardiograph signal acquisition module. The electrocardiosignals are used as important parameters of human health, and the heart state of a user to be detected can be monitored by monitoring the electrocardiosignals. In this embodiment, the electrocardiograph signal acquisition module is connected with the main controller, and when electrocardiograph signal monitoring is performed, after the electrocardiograph signal acquisition module acquires electrocardiograph signal detection parameters of a user to be detected, the electrocardiograph signal acquisition module acquires corresponding electrocardiograph signal information according to the electrocardiograph signal detection parameters, and then transmits the electrocardiograph signal information to the main controller, and the main controller transmits the electrocardiograph signal information to the display module for display according to the received electrocardiograph signal information. In this example, when the electrocardiograph signal information received by the main controller is not within the preset threshold range, the user may be notified of the user to be tested or other related preset personnel by outputting an alarm message through the multivariate parameter health monitoring device. Other relevant preset personnel may be the holder of the terminal of the electronic device connected to the multi-parameter health monitoring device, such as doctors, family members, etc.

Referring to fig. 4, specifically, in one embodiment, the electrocardiograph signal acquisition module includes an electrocardiograph signal processor and at least 3 electrocardiograph electrode plates, where the at least 3 electrocardiograph electrode plates are respectively connected with the electrocardiograph signal processor, and the at least 3 electrocardiograph electrode plates are used for acquiring electrocardiograph detection parameters of a user to be detected and transmitting the electrocardiograph detection parameters to the electrocardiograph signal processor. In this embodiment, in order to obtain stable electrocardiosignal waveforms, improve the accuracy of monitoring of the multi-parameter health monitoring device, at least 1 grounded electrocardiosignal plate is arranged in 3 electrocardiosignal plates, when the electrocardiosignal detection signal is collected, the grounded electrocardiosignal plate is arranged at the bottom of the shell of the multi-parameter health monitoring device and is attached to the arm region of the user to be detected (when the multi-parameter health monitoring device is fixed at the arm to work), the rest electrocardiosignal plate is attached to the chest region of the user to be detected, and the electrocardiosignal information is acquired by the electrocardiosignal processor according to the received electrocardiosignal detection parameters and then is transmitted to the main controller.

Referring to fig. 5, in some embodiments, the multi-parameter health monitoring device further comprises one or more of a cardiopulmonary sound signal acquisition module, a body temperature acquisition module. In this embodiment, the cardiopulmonary sound signal acquisition module is connected with the main controller, and transmits the acquired cardiopulmonary sound signal of the user to be detected to the main controller. The body temperature acquisition module is connected with the main controller and transmits acquired body temperature information of the user to be detected to the main controller. The embodiment can realize the collection and monitoring of the heart and lung sound signals and the body temperature information of the user to be tested by being provided with one or more of the heart and lung sound signal collection module and the body temperature collection module, and when the collected heart and lung sound signals or the body temperature information are abnormal, the user to be tested or other related preset personnel is informed by the warning information output by the multi-parameter health monitoring device. Other relevant preset personnel may be the holder of the terminal of the electronic device connected to the multi-parameter health monitoring device, such as doctors, family members, etc.

Referring to fig. 5, in some embodiments, in order to implement data communication between the multi-parameter health monitoring device and the external device, data information collected by the multi-parameter health monitoring device is transmitted to the remote external device, and the current user of the multi-parameter health monitoring device can be monitored in real time through the remote external device, so that the multi-parameter health monitoring device further includes a data transmission module; the data transmission module is connected with the main controller, and the data information acquired and received by the main controller can be sent to external equipment connected with the main controller through the data transmission module, so that remote monitoring is realized. Specifically, in some embodiments, the main controller uploads the received data information (including the respiratory rate information, the respiratory intensity information, the electrocardiograph signal information, the heart and lung sound signal, the body temperature information and the like in the embodiments described above) to the remote server through the data transmission module, and after the doctor obtains authorization, the doctor can access the corresponding information in the remote server through the internet, so as to further judge the physical health condition of the current user to be tested. In addition, an AI judging program can be arranged in the remote server, the received data information is judged to obtain the physical health condition information of the user to be tested before, and the physical health condition information is returned to the multi-parameter health monitoring device for display.

In some embodiments, the data transmission module may be one or more of a 4G wireless communication module, a 5G wireless communication module, a bluetooth communication module.

Referring to fig. 5, in some embodiments, in order to effectively store data information collected by the multi-parameter health monitoring device, the data information is used for analyzing and monitoring historical health data of a current user so as to accurately judge the current physical health condition of the user. The multi-parameter health monitoring device is also provided with a storage module, wherein the storage module is connected with the main controller, and the main controller transmits acquired and received data information (including blood oxygen saturation information, pulse rate information, electrocardiosignal information, body temperature information, heart and lung sound information and the like) to the storage module for storage. Wherein the memory module comprises a nonvolatile memory device.

Referring to fig. 5, in some embodiments, in order to obtain the current gesture of the user conveniently, when the user is monitored remotely, if the gesture of the user is in an abnormal state, the user can find out in time to perform corresponding measures. Therefore, the multi-parameter health monitoring device further comprises a gesture parameter acquisition module, wherein the gesture parameter acquisition module is connected with the main controller, the gesture parameter acquisition module is used for acquiring gesture parameters of a user to be detected and transmitting the gesture parameters into the main controller, the main controller judges whether the gesture parameters are opposite to preset gesture parameters after receiving the gesture parameters, and if yes, the user outputs alarm information to inform the user to be detected or other related preset personnel. Other relevant preset personnel may be the holder of the terminal of the electronic device connected to the multi-parameter health monitoring device, such as doctors, family members, etc. In other embodiments, the attitude parameter acquisition module may be implemented by a gravity sensor.

The following describes the positional relationship of components of a multi-component parameter health monitoring device according to an embodiment of the present invention through a specific embodiment, and the working process when monitoring a user to be tested is implemented:

referring to fig. 6 and 7, in this embodiment, the multi-parameter health monitoring device includes a housing 100, a main control board (not shown) is disposed in a cavity in the housing 100, and a main controller, a blood oxygen pulse rate detection processing chip, an electrocardiograph signal processor, a data storage module, a data transmission module, a gesture parameter acquisition module, and a power module for providing working voltages for each module are fixed on the main control board. In this embodiment, when the user uses the multi-parameter health monitoring device according to the embodiment of the present invention, the multi-parameter health monitoring device is fixed at the arm by the adapted binding band, so that the lower surface of the housing 100 of the multi-parameter health monitoring device is attached to the skin of the arm of the user. The main controller comprises a BT8958B2 model processing chip and the blood oxygen pulse rate detection processing chip comprises an Hx3605 model processing chip; one side surface of the casing 100 is provided with a first interface 110, and the first interface 110 is respectively connected with an electrocardiosignal processor and a main controller. The first interface 110 is used for being connected with an external detection device through a data transmission line to collect health parameters, such as: when the first interface 110 is connected with the electronic gyroscope through a data transmission line, the electronic gyroscope is attached to the chest of the user to be tested, so that acceleration information and speed information of the chest of the user to be tested are obtained, after the acceleration information and the speed information are transmitted to the main controller through the first interface 110, the main controller obtains respiratory rate information and respiratory intensity information of the user to be tested according to the acceleration information and the speed information, and then transmits the respiratory rate information and the respiratory intensity information to the display module 120 arranged on the upper surface of the shell 100 for display. Meanwhile, when the multi-parameter health monitoring device detects the blood oxygen pulse rate, the LED light assembly 130 (including the red LED, the infrared LED and the green LED) arranged on the lower surface of the shell 100 works, the photodiode (the LED light assembly 130 area arranged on the main control board is not shown in the figure) receives the corresponding detection parameters and transmits the detection parameters to the blood oxygen pulse rate detection processing chip arranged on the main control board so as to obtain corresponding blood oxygen saturation information and pulse rate information, and the blood oxygen saturation information and the pulse rate information are transmitted to the display module 120 for display through the main controller. When the lower surface of the housing 100 of the multi-parameter health monitoring device is attached to the arm skin of the user to be tested, the main controller can control the body temperature acquisition module 140 arranged on the lower surface of the housing 100 to work, the body temperature acquisition module 140 can be realized through an infrared temperature sensor, and after the body temperature information of the user to be tested is acquired, the body temperature information is transmitted to the display module 120 through the main controller for display. When the electrocardiograph signal monitoring is performed on the user to be tested, the electrocardiograph signal monitoring device is connected to at least 2 electrocardiograph electrode plates through a first interface 110 and is attached to a preset area of the chest of the user to be tested, at this time, a grounding electrocardiograph electrode plate 160 arranged on the lower surface of the shell 100 is used for guaranteeing that the electrocardiograph signal of the user to be tested is obtained, after the electrocardiograph detection parameters are obtained through the at least 2 electrocardiograph electrode plates attached to the chest of the user to be tested, the electrocardiograph signal information of a corresponding stable waveform is transmitted to an electrocardiograph signal processor, and the electrocardiograph signal information is obtained through the electrocardiograph signal processor according to the electrocardiograph detection signals and finally displayed on the display module 120 through the main controller. In this embodiment, the cardiopulmonary sound signal acquisition module includes a pickup sensor, and when carrying out cardiopulmonary sound signal monitoring, the cardiopulmonary sound signal acquisition module gathers heart pulmonary sound signal to after transmitting cardiopulmonary sound signal to main control unit, main control unit judges whether the cardiopulmonary sound signal of receipt is normal. In this embodiment, an audio power amplifier and a speaker are further disposed on the main control board, and when any parameter of the above collection and monitoring does not conform to a preset threshold range, the main controller controls the audio power amplifier and the speaker to work and output an alarm prompt tone outwards, where an area 170 formed by a plurality of round holes is disposed on the upper surface of the housing 100, and is used for spreading the alarm prompt tone outwards. In this embodiment, the switching monitoring of each function of the multi-parameter health monitoring device is performed by a menu/emergency key 150 provided on the upper surface of the housing 100. In addition, the main control board of the multi-parameter health monitoring device is also provided with a data transmission module and a storage module, and the data transmission module is used for sending all information acquired by the multi-parameter health monitoring device to remote external equipment outwards for remote monitoring. The storage module is used for storing all information acquired by the multi-parameter health monitoring device. In addition, the menu/emergency key 150 may be configured to alert an external device connected thereto to an emergency situation through the data transmission module in case of a long-time press.

In addition, in some embodiments, when any parameter of the user collected by the multi-parameter health monitoring device in the above embodiments is abnormal, the collection and measurement of other parameters can be triggered according to a mechanism preset by the multi-parameter health monitoring device. For example: when the blood oxygen saturation or pulse rate information acquired by the multi-parameter health monitoring device is abnormal, the detection of one or more parameters of respiratory intensity information, respiratory frequency information, electrocardiosignals, body temperature information and heart and lung sound signals can be triggered. Also for example: when the body temperature information acquired by the multi-parameter health monitoring device is abnormal, the detection of one or more parameters of blood oxygen saturation, pulse rate information, respiratory intensity information, respiratory frequency information, electrocardiosignals, body temperature information and heart and lung sound signals can be triggered. Obviously, the linkage trigger detection between specific parameters can be triggered according to a preset mechanism, and the linkage trigger detection is not limited to the two conditions.

An embodiment of the present invention further provides a health monitoring system, which includes a background monitoring terminal and the multi-parameter health monitoring system set forth in any one of the above embodiments; the background monitoring terminal is connected with the multi-parameter health monitoring device, the multi-parameter health monitoring device transmits monitored health monitoring data information to the background monitoring terminal, and the background monitoring terminal monitors and stores the received health monitoring data information.

Referring to fig. 8, in some embodiments, the multi-parameter health monitoring device is provided with a data transmission module, and is connected with the background monitoring terminal through the data transmission module. Meanwhile, when the health monitoring device monitors that the health monitoring data information exceeds the preset threshold range, alarm information is sent to the background monitoring terminal. The background monitoring terminal can be one or more of a PC, a mobile phone and a Pad.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of one of ordinary skill in the art without departing from the spirit of the present invention. Furthermore, embodiments of the invention and features of the embodiments may be combined with each other without conflict.

Claims (10)

1. A multi-parameter health monitoring device, comprising:

the breathing parameter acquisition module is used for acquiring breathing detection parameters of a user to be detected;

the blood oxygen pulse rate parameter acquisition module is used for acquiring blood oxygen pulse rate detection parameters of the user to be detected and acquiring blood oxygen saturation information and pulse rate information according to the blood oxygen pulse rate detection parameters;

the main controller is respectively connected with the respiratory parameter acquisition module and is used for receiving the respiratory detection parameters and acquiring respiratory frequency information and respiratory intensity information of the user to be detected according to the respiratory detection parameters; the main controller is also connected with the blood oxygen pulse rate parameter acquisition module and is used for receiving the blood oxygen saturation information and the pulse rate information;

and the display module is connected with the main controller and used for displaying one or more of the respiratory frequency information, the respiratory intensity information, the blood oxygen saturation information and the pulse rate information.

2. The multi-parameter health monitoring device of claim 1, wherein the respiratory parameter acquisition module comprises an electronic gyroscope;

the electronic gyroscope is attached to the body surface of the user to be tested, corresponding to the chest diaphragm, and is used for collecting acceleration information and speed information of chest cavity fluctuation, wherein the acceleration information and the speed information are the respiratory detection parameters.

3. The multi-parameter health monitoring device according to claim 2, wherein the blood oxygen pulse rate parameter acquisition module comprises a blood oxygen pulse rate detection processing chip, an LED light assembly and a photoelectric receiving tube;

the blood oxygen pulse rate detection processing chip is respectively connected with the main controller, the LED light assembly and the photoelectric receiving tube, and after receiving the blood oxygen pulse rate detection signal of the main controller, the blood oxygen pulse rate detection processing chip controls the LED light assembly to work so as to generate a blood oxygen pulse rate detection light signal;

and after the photoelectric receiving tube receives the blood oxygen pulse rate detection parameters and transmits the blood oxygen pulse rate detection parameters to the blood oxygen pulse rate detection processing chip, the blood oxygen pulse rate detection processing chip acquires the blood oxygen saturation information and the pulse rate information according to the blood oxygen pulse rate detection parameters.

4. A multi-parameter health monitoring device according to any one of claims 1 to 3, further comprising an electrocardiograph signal acquisition module;

the electrocardiosignal acquisition module is connected with the main controller and is used for acquiring electrocardiosignal detection parameters of a user to be detected, transmitting the electrocardiosignal information to the main controller after obtaining corresponding electrocardiosignal information according to the electrocardiosignal parameters, and transmitting the electrocardiosignal information to the display module for display by the main controller.

5. The multi-parameter health monitoring device of claim 4, wherein the electrocardiosignal acquisition module comprises an electrocardiosignal processor and at least 3 electrocardiosignal electrode plates; at least 3 electrocardio electrode plates are connected with the electrocardio signal processor, at least 3 electrocardio electrode plates are used for collecting electrocardio detection parameters and transmitting the electrocardio detection parameters to the electrocardio signal processor, and the electrocardio signal processor obtains corresponding electrocardio signal information according to the electrocardio detection parameters; at least 1 grounding electrocardio electrode plate is arranged in 3 electrocardio electrode plates.

6. The multi-parameter health monitoring device of claim 1, 2, 3 or 5, further comprising one or more of a heart and lung sound signal acquisition module, a body temperature acquisition module;

the heart lung sound signal acquisition module is connected with the main controller and is used for acquiring heart lung sound signals of the user to be detected and transmitting the heart lung sound signals to the main controller;

the body temperature acquisition module is connected with the main controller and is used for acquiring body temperature information of the user to be detected and transmitting the body temperature information to the main controller.

7. The multi-parameter health monitoring device of claim 6, further comprising a data storage module;

the storage module is connected with the main controller and is used for receiving and storing data information sent by the main controller.

8. The multi-parameter health monitoring device of claim 7, further comprising a data transmission module;

the data transmission module is connected with the main controller and is used for transmitting the data information sent by the main controller to external equipment.

9. The multi-parameter health monitoring device of claim 6 or 7, further comprising a gesture parameter acquisition module;

the gesture parameter acquisition module is connected with the main controller and is used for acquiring the motion gesture parameters of the user to be detected and transmitting the motion gesture parameters to the main controller, and the main controller acquires the motion state of the user to be detected according to the received motion gesture parameters.

10. A health monitoring system comprising a background monitoring terminal and a multivariate parameter health monitoring device as defined in any one of claims 1 to 9;

the background monitoring terminal is connected with the multi-element parameter health monitoring device and is used for receiving health monitoring data information sent by the multi-element health parameters and monitoring and storing the health monitoring data information.

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